Multistage separation system

We claim: 1. A combined static and dynamic separation system, comprising: a compressor having a rotary shaft; a rotating separation system comprising a rotating separation drum coupled with the rotary shaft and configured to rotate with the rotary shaft; a static separation system disposed axially-forwardly, upstream of the rotating separation system, the static separation system comprising: an axial inlet of the static separation system; a static separation curve fluidly coupled with and disposed radially outward of the axial inlet of the static separation system; and an outlet of the static separation system fluidly coupled with an inlet of the rotating separation system; a static separation drain system configured to receive at least a portion of a fluid separated by the static separation system; and a rotating separation drain system configured to receive at least a portion of a fluid separated by the rotating separation system. 2. The combined static and dynamic separation system of claim 1 , wherein the static separation curve has a turn angle between about 100 degrees and about 190 degrees. 3. The combined static and dynamic separation system of claim 2 , wherein the turn angle of the static separation curve is between about 150 degrees and about 190 degrees. 4. The combined static and dynamic separation system of claim 1 , wherein the static separation curve is disposed radially outward of the inlet of the rotating separation system. 5. The combined static and dynamic separation system of claim 1 , wherein the static separation system comprises a static separation housing coupled with a front end portion of the rotating separation system. 6. The combined static and dynamic separation system of claim 1 , wherein the static separation drain system is fluidly coupled with the rotating separation drain system. 7. The combined static and dynamic separation system of claim 6 , wherein the static separation drain system and the rotating separation drain system are disposed in a common pressure vessel. 8. A multistage separation system, comprising: a compressor coupled with a rotary shaft; a rotating separation system coupled to the rotary shaft and configured to rotate therewith; and a static separation system disposed axially-forwardly, upstream of the rotating separation system, the static separation system including a static separation housing disposed axially along a longitudinal axis of the rotary shaft, the static separation housing at least partially defining an axial inlet of the static separation system aligned with the longitudinal axis, a static separation curve, and a fluid path extending radially outward from the axial inlet of the static separation system to the static separation curve to fluidly couple the axial inlet of the static separation system with the static separation curve, wherein the static separation curve has an outlet fluidly coupled with an inlet of the rotating separation system. 9. The multistage separation system of claim 8 , wherein the outlet of the static separation curve is disposed radially outward of the inlet of the rotating separation system. 10. The multistage separation system of claim 8 , wherein the static separation system further comprises a static separation chamber. 11. The multistage separation system of claim 10 , wherein the rotating separation system further comprises a fluid drain outlet fluidly coupled with the static separation chamber. 12. The multistage separation system of claim 11 , wherein the fluid drain outlet and the static separation chamber are disposed in a common pressure vessel.